Specific Process Knowledge/Characterization/AFM: Atomic Force Microscopy/AFM Icon Acceptance: Difference between revisions
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Z range at 2my to get sub nanometer resolution in Z <br> | Z range at 2my to get sub nanometer resolution in Z <br> | ||
Rq: 28 | Rq: 28 pm | ||
[[File:System noise.JPG|400px]] | [[File:System noise.JPG|400px]] | ||
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Revision as of 12:49, 18 May 2020
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Accessories following the systems
Equipment | AFM Icon | AFM Icon 2 | ||||||||||||||
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Chucks |
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Holders |
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Modes included |
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Probes that followed the systems |
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Samples |
Calibration samples for getting quantitative modulus measurements:
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AFM Icon-Pt 1: Acceptance tests done
Noise tests
Sensor noise
Tappingmode, OTESPA-R3 probe used.
First we made a false engage (scanning in air):
Turn off gain 0 0
Z range 0.2my
Scan size 0.01nm
We saw some 50Hz noise (electrical - or maybe pumps): Rq 15 pm (specs 35pm)
System noise
Noise on sample: scan size 0.1nm
we started with 1my scan size to optimize the scan.
2.43Hz
256 lines
Z range at 2my to get sub nanometer resolution in Z
Rq: 54,5pm (plade vibrator koerte udenfor)
Rq: 23pm uden vibrator koerende + ro og med aaben hood.
Rq:71pm uden vibrator koerende + ro og med lukket hood
Roughness
HAR: 200nm wide 400nm deep
HAR: 2µm wide 6µm deep
Graphene KPFM measurement
Height image: The graphene and structuring in graphene is not visible
Potential image: Potential difference between grapheme and non-graphene is visible
Phase: Phase imaging maps the phase lag between the periodic signal driving the cantilever and the oscillations of the cantilever. Changes in phase lag often indicate changes in the properties of the sample surface. Here the structuring in the graphene is very clear
AFM Icon-Pt 2: Acceptance test
Noise tests
Sensor noise
Tapping ]mode, OTESPA-R3 probe used.
First we made a false engage (scanning in air):
Turn off gain 0 0
Z range 0.2my
Scan size 0.01nm
Roughness: Rq 28 pm (specs 35pm)
System noise
Noise on sample: scan size 0.1nm
we started with 1my scan size to optimize the scan.
2.43Hz
256 lines
Z range at 2my to get sub nanometer resolution in Z
Rq: 28 pm